#pragma once // Memory Flag #define MF_80STORE 0x00000001 #define MF_ALTZP 0x00000002 #define MF_AUXREAD 0x00000004 // RAMRD #define MF_AUXWRITE 0x00000008 // RAMWRT #define MF_BANK2 0x00000010 // Language Card Bank 2 $D000..$DFFF #define MF_HIGHRAM 0x00000020 // Language Card RAM is active $D000..$DFFF #define MF_HIRES 0x00000040 #define MF_PAGE2 0x00000080 #define MF_SLOTC3ROM 0x00000100 #define MF_INTCXROM 0x00000200 #define MF_WRITERAM 0x00000400 // Language Card RAM is Write Enabled #define MF_IMAGEMASK 0x000003F7 #define MF_LANGCARD_MASK (MF_WRITERAM|MF_HIGHRAM|MF_BANK2) enum { // Note: All are in bytes! APPLE_SLOT_SIZE = 0x0100, // 1 page = $Cx00 .. $CxFF (slot 1 .. 7) APPLE_SLOT_BEGIN = 0xC100, // each slot has 1 page reserved for it APPLE_SLOT_END = 0xC7FF, // FIRMWARE_EXPANSION_SIZE = 0x0800, // 8 pages = $C800 .. $CFFF FIRMWARE_EXPANSION_BEGIN = 0xC800, // [C800,CFFF) FIRMWARE_EXPANSION_END = 0xCFFF // }; enum MemoryInitPattern_e { MIP_ZERO , MIP_RANDOM , MIP_FF_FF_00_00 , MIP_FF_00_FULL_PAGE , MIP_00_FF_HALF_PAGE , MIP_FF_00_HALF_PAGE , MIP_PAGE_ADDRESS_LOW , MIP_PAGE_ADDRESS_HIGH , NUM_MIP }; typedef BYTE (__stdcall *iofunction)(WORD nPC, WORD nAddr, BYTE nWriteFlag, BYTE nWriteValue, ULONG nExecutedCycles); extern iofunction IORead[256]; extern iofunction IOWrite[256]; extern LPBYTE memwrite[0x100]; extern LPBYTE mem; extern LPBYTE memdirty; #ifdef RAMWORKS const UINT kMaxExMemoryBanks = 127; // 127 * aux mem(64K) + main mem(64K) = 8MB extern UINT g_uMaxExPages; // user requested ram pages (from cmd line) extern UINT g_uActiveBank; #endif void RegisterIoHandler(UINT uSlot, iofunction IOReadC0, iofunction IOWriteC0, iofunction IOReadCx, iofunction IOWriteCx, LPVOID lpSlotParameter, BYTE* pExpansionRom); void MemDestroy (); bool MemCheckSLOTC3ROM(); bool MemCheckINTCXROM(); LPBYTE MemGetAuxPtr(const WORD); LPBYTE MemGetMainPtr(const WORD); LPBYTE MemGetBankPtr(const UINT nBank); LPBYTE MemGetCxRomPeripheral(); DWORD GetMemMode(void); void SetMemMode(DWORD memmode); bool MemOptimizeForModeChanging(WORD programcounter, WORD address); bool MemIsAddrCodeMemory(const USHORT addr); void MemInitialize (); void MemInitializeROM(void); void MemInitializeCustomF8ROM(void); void MemInitializeIO(void); void MemInitializeCardExpansionRomFromSnapshot(void); BYTE MemReadFloatingBus(const ULONG uExecutedCycles); BYTE MemReadFloatingBus(const BYTE highbit, const ULONG uExecutedCycles); void MemReset (); void MemResetPaging (); void MemUpdatePaging(BOOL initialize); LPVOID MemGetSlotParameters (UINT uSlot); std::string MemGetSnapshotUnitAuxSlotName(void); void MemSaveSnapshot(class YamlSaveHelper& yamlSaveHelper); bool MemLoadSnapshot(class YamlLoadHelper& yamlLoadHelper, UINT version); void MemSaveSnapshotAux(class YamlSaveHelper& yamlSaveHelper); bool MemLoadSnapshotAux(class YamlLoadHelper& yamlLoadHelper, UINT version); BYTE __stdcall IO_Null(WORD programcounter, WORD address, BYTE write, BYTE value, ULONG nCycles); BYTE __stdcall MemSetPaging(WORD pc, WORD addr, BYTE bWrite, BYTE d, ULONG nExecutedCycles); enum SS_CARDTYPE; void SetExpansionMemType(const SS_CARDTYPE type); SS_CARDTYPE GetCurrentExpansionMemType(void); void CreateLanguageCard(void); void SetRamWorksMemorySize(UINT pages); UINT GetRamWorksActiveBank(void); void SetSaturnMemorySize(UINT banks); void SetMemMainLanguageCard(LPBYTE ptr, bool bMemMain=false); class LanguageCardUnit* GetLanguageCard(void);